Differentiation, Electrical Activity And Synapse Structure Of Human Stem Cell-derived Sensory Neurons
Funder
National Health and Medical Research Council
Funding Amount
$322,088.00
Summary
A major challenge in treating neurodegenerative conditions with stem cells, is to generate a population of donor cells which are capable of incorporating into the host nervous system and restoring function. This proposal will test the capacity of human stem cells to make functional connections in the auditory system, potentially enhancing hearing with a cochlear implant. These studies are critical in determining how stem cells may be used to promote functional regeneration of the damaged nervous ....A major challenge in treating neurodegenerative conditions with stem cells, is to generate a population of donor cells which are capable of incorporating into the host nervous system and restoring function. This proposal will test the capacity of human stem cells to make functional connections in the auditory system, potentially enhancing hearing with a cochlear implant. These studies are critical in determining how stem cells may be used to promote functional regeneration of the damaged nervous system.Read moreRead less
Mechanisms Underlying Efferent Feedback In The Vestibular System
Funder
National Health and Medical Research Council
Funding Amount
$491,475.00
Summary
The balance system has a remarkable, but poorly understood capacity for self-repair. An intrinsic feedback mechanism, the Efferent Vestibular System or EVS is thought to play a major role in this self-repair. Surprisingly, we know little about EVS function in animals or humans. We will study the EVS in mice and humans to gain a better understanding of how it works. This information will then drive the design of therapies that improve and restore balance in disease, injury, or ageing.
Gene Therapy For Preventing Progressive Sensorineural Hearing Loss And Restoring Hearing
Funder
National Health and Medical Research Council
Funding Amount
$549,848.00
Summary
This proposal aims to study the clinical feasibility and safety of gene therapy in the guinea pig cochlea for preventing progressive hearing loss and restoring hearing. Two cell survival genes (GDNF and BDNF) will be studied for preserving sensory (hair) cells and hearing nerves, while a gene called Atoh1 will be investigated for its ability to regenerate new hair cells and restore hearing after the onset of progressive hearing loss.
Understanding The Role Of Regulatory T Cells In Chronic Pain Following Nerve Injury
Funder
National Health and Medical Research Council
Funding Amount
$587,046.00
Summary
Neuropathic pain is a debilitating condition of chronic pain that develops after damage to the nervous system, and lacks an effective treatment. This project focuses on the novel hypothesis that the immunosupressive regulatory T cells and their mediators play a critical role in controlling neuroinflammation and pain hypersensitivity following peripheral nerve injury. This study promises to enhance our understanding of the neuroimmune activation in neuropathic pain and offers novel approaches for ....Neuropathic pain is a debilitating condition of chronic pain that develops after damage to the nervous system, and lacks an effective treatment. This project focuses on the novel hypothesis that the immunosupressive regulatory T cells and their mediators play a critical role in controlling neuroinflammation and pain hypersensitivity following peripheral nerve injury. This study promises to enhance our understanding of the neuroimmune activation in neuropathic pain and offers novel approaches for pain management.Read moreRead less
The Role Of Gliosis In Advanced Retinal Degeneration
Funder
National Health and Medical Research Council
Funding Amount
$457,785.00
Summary
The development of treatments that restore vision assumes that the output neurons of the retina remain intact. Yet, there is now considerable evidence that the neurons that signal from the retina to the brain are altered in those that have degenerative diseases of the retina. Here, we will examine the cause of these cellular changes in an animal model and seek to prevent the loss of output neurons. This information is crucial for the development of treatments that seeks to restore vision.
Our vestibular system provides us with the important sense of balance. When it fails we suffer debiltating bouts of vertigo and dizziness. A great deal is known about how balance signals are sent from the inner ear to our brains, but virtually nothing is known about the important signals the brain sends to the inner ear. In this study we will use a new perparation develped in our laboratory to examine how these essential brain signals control the function of our balance organs.
Development Of Human Sensory Receptors Of The Inner Ear
Funder
National Health and Medical Research Council
Funding Amount
$418,281.00
Summary
Normal development of our special sense organs is crucial for sight, taste, hearing, and balance. The balance system mediates important postural and eye reflexes that are essential for movement and vision. Abnormal development of the balance system results in dizziness, vertigo, gait deficits, and impaired learning and reading ability in children. This study will investigate how the organs of balance mature and connect with nerve fibres of the inner ear during human development.